Product Description
Product Description
UH-5075-S series conveyor chains have excellent extensity and capable of making any turn on both horizontal planes and vertical planes. Based on the actual needs of various process flows, the conveyor has been deliberately designed to run across relatively long routes and abstruction objects to transmit the work pieces along the scheduled route all the way to their destinations. In this way, UH-5075 can integrae all separate production steps into an automatic production line, which has greatly improved efficiency and product quality level and strengthen the management as well.
Features:
Overhead trolley conveyors are used in wide range of applications, including: manufacturing and assembly, warehousing and distribution of the goods.
Overhead chain conveyors system can prove to be cost effective as they reduce the use of carriers and allows large volumes to move rapidly through a process.
Techncial Date
Kasin No. |
UH-5075-S Standard chain |
Heavy-duty chain
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UH-5075-HV Heavy-duty chain |
UH-5075-HA Heavy-duty chain |
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Suspension Spacing (mm) |
150+(150× N) |
150+(150 × N) |
150+(150 × N) |
150+(150 × N) |
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Chain’s Weight (kg/m) |
4.2 |
4.58 |
4.83 |
5.3 |
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Single-span Weight (≤kg) |
35 |
40 |
45 |
50 |
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Chain’s Allowed Pull Force (≤kgf) |
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Can transmission chains be used in heavy-duty or high-load applications?Transmission chains are commonly used in heavy-duty or high-load applications due to their robust construction and ability to handle substantial power transmission requirements. Here’s a detailed explanation: 1. Strength and Durability: Transmission chains are designed to withstand high loads and heavy-duty applications. They are constructed using high-quality materials such as alloy steel, ensuring exceptional strength, toughness, and resistance to fatigue. These chains are engineered to handle the demanding forces and loads encountered in heavy machinery, industrial equipment, and automotive applications. 2. Load Capacity: Transmission chains are available in various sizes and configurations to accommodate different load capacities. Manufacturers provide load ratings and specifications for their chains, allowing users to select the appropriate chain based on the anticipated loads. The load capacity of a transmission chain depends on factors such as chain size, material, design, and heat treatment. It is essential to choose a chain that can handle the specific load requirements of the application. 3. Power Transmission Efficiency: Transmission chains offer high power transmission efficiency, making them suitable for heavy-duty applications. The precision engineering of the chain links and sprockets ensures minimal energy loss during power transfer, maximizing the efficiency of the system. This efficiency is crucial in applications where large amounts of power need to be transmitted reliably and consistently. 4. Adaptability to High Loads: Transmission chains can adapt to various load conditions, including shock loads and dynamic forces. Their design allows them to accommodate sudden changes in loads without compromising performance or integrity. Additionally, heavy-duty transmission chains often incorporate features such as hardened pins, solid rollers, and specialized coatings to enhance their load-bearing capacity and resistance to wear. 5. Wide Range of Applications: Transmission chains find extensive use in industries such as construction, mining, agriculture, material handling, and power transmission. They are employed in heavy machinery, conveyor systems, lifting equipment, industrial drives, and many other applications that involve significant loads. Their versatility and ability to handle high loads make them a reliable choice for demanding environments. When selecting a transmission chain for heavy-duty or high-load applications, it is essential to consider the specific requirements, including anticipated loads, operating conditions, and environmental factors. Consulting with chain manufacturers or industry experts can provide valuable guidance in choosing the most suitable chain to ensure safe and efficient power transmission in heavy-duty applications. How does the speed of rotation affect the choice of transmission chain?The speed of rotation is an important factor to consider when selecting a transmission chain for a specific application. Here’s a detailed answer to the question: 1. Fatigue and Wear: The speed of rotation directly affects the fatigue and wear characteristics of a transmission chain. Higher rotational speeds result in increased cyclic loading and wear on the chain’s components. Therefore, it is crucial to choose a chain that is designed to handle the anticipated speed and associated fatigue stresses. 2. Lubrication and Cooling: Faster rotational speeds generate more heat due to friction between the chain and the sprockets. Adequate lubrication is essential to minimize friction, reduce heat buildup, and maintain the chain’s performance and longevity. Additionally, some high-speed applications may require additional cooling mechanisms to dissipate heat effectively. 3. Centrifugal Forces: As the rotational speed increases, centrifugal forces become more significant. These forces can affect the chain’s stability, tension, and overall performance. Chains designed for high-speed applications are engineered to withstand the increased centrifugal forces and maintain proper tension during operation. 4. Dynamic Balance: High-speed rotation may introduce dynamic imbalances in the transmission system, leading to vibrations and decreased system efficiency. Special attention should be given to selecting a transmission chain with proper dynamic balance characteristics to minimize vibrations and ensure smooth operation. 5. Material and Design: Chains for high-speed applications often require specific materials and design features to accommodate the increased rotational forces and maintain reliability. High-strength alloys, precise manufacturing tolerances, and advanced surface treatments may be employed to enhance the chain’s performance and durability at high speeds. When selecting a transmission chain, it is crucial to consider the manufacturer’s recommendations and specifications regarding maximum allowable speeds. Factors such as the application’s operational requirements, anticipated rotational speed, load, and environmental conditions should all be taken into account to ensure the chosen chain is suitable for the specific high-speed application. What are the advantages of using stainless steel transmission chains?Stainless steel transmission chains offer several advantages over chains made from other materials. Here are some key benefits of using stainless steel transmission chains:
Overall, stainless steel transmission chains provide a reliable and long-lasting solution for applications where corrosion resistance, durability, hygiene, and strength are essential.
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